Lipid droplets (LDs) are organelles specialized in the storage of neutral lipids, cholesterol esters and triglycerides, thereby protecting cells from the toxicity of excess lipids while allowing for the mobilization of lipids in times of nutrient deprivation. Defects in LD function are associated with many diseases. S-acylation mediated by zDHHC acyltransferases modifies thousands of proteins, yet the physiological impact of this post-translational modification on individual proteins is poorly understood. Here, we show that zDHHC11 regulates LD catabolism by modifying adipose triacylglyceride lipase (ATGL), the rate-limiting enzyme of lipolysis, both in hepatocyte cultures and in mice. zDHHC11 S-acylates ATGL at cysteine 15. Preventing the S-acylation of ATGL renders it catalytically inactive despite proper localization. Overexpression of zDHHC11 reduces LD size, whereas its elimination enlarges LDs. Mutating ATGL cysteine 15 phenocopies zDHHC11 loss, causing LD accumulation, defective lipolysis and lipophagy. Our results reveal S-acylation as a mode of regulation of ATGL function and LD homoeostasis. Modulating this pathway may offer therapeutic potential for treating diseases linked to defective lipolysis, such as fatty liver disease.
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Article Synopsis
- Burn injuries lead to hypermetabolic reprogramming, increasing the risk of illness and death, yet the mechanisms behind this response are not well understood.
- The study identifies that changes in protein S-acylation in key metabolic organs like adipose tissue and the liver contribute to harmful outcomes post-burn injury, with alterations in various signaling pathways.
- Targeting S-acylation with a DHHC inhibitor shows promise in reducing detrimental effects like ER stress and increased lipolysis, suggesting a new therapeutic approach to enhance recovery after burns.
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